1. Assignment Submission on the Resin
Transfer Molding (RTM)
Frontier Lecture
Submitted By-
Md. Sajjadul Karim Bhuiyan
Id No.-1715226027
School of Textile Science and Engineering
Wuhan Textile University.
Sc
2. Resin Transfer Molding (RTM)
Resin Transfer molding in which fiber preform or dry fiber reinforcement is packed into a mold
cavity that has the shape of the desired part and then supply the matrix material to form the
product.
General Characteristics of Resin Transfer Molding (RTM)
Resin transfer molding is a closed molding process.
It is also knows as liquid transfer molding process.
Molding unit has two halves namely upper half mold (core) and lower half mold (cavity).
In this technique, resin is transferred over the already placed reinforcement.
Raw Materials (Reinforcing materials)
Glass fiber, carbon fiber, aramid fiber, natural plant fibers (sisal, banana, nettle, hemp,
flax etc.)
- These fibers are used either individually or in combined form (hybrid) as a woven mat,
unidirectional mat or copped strand mat.
- Minerals fillers may also be added to improve surface finish, Fire retardants Accelerator, U V
stabilizers, Release agent.
Raw Materials (Matrix Materials)
Thermosets: - Epoxy resin, Methyl Methacrylate, polyester, polyvinyl ester, phenolic resin,
polyurethane resin, silicone, alkyd, thermoset polyamides.
Thermoplastics: - Nylon, PP, PE, Styrene resin, Thermoplastic polyester, fluoropolymer, Liquid
crystal polymers and thermoplastic elastomers.
Resin Transfer Molding Process
Reinforcement in terms of either woven mat or strand mat form is placed on the surface
of lower half mold.
A release gel is applied on the mold surface for easy removal of the composite.
The mold is properly closed and the mold halves clamped together.
3. The resin is pumped in by repeated stroking of the metering cylinders until a
predetermined volume has been delivered into the mold.
Air is displaced through other vents.
Figure 1- Process Diagram of Resin Transfer Molding
The uniformity of resin flow can be enhanced by using a catalyst as an accelerator and
vacuum application.
After curing, the mold is opened and composite product is taken out.
Basic Factors during the Process
There are two separate containers for resin and catalyst.
Resin container is larger than the catalyst container.
Both the containers have separate outlets which pass through pumping unit and opens
in mixing chamber.
Pumping unit transfers the resin and catalyst to the mixing chamber.
Resin and catalyst is mixed thoroughly (properly) in the mixing chamber.
Resin injector is used to inject the mixture to the mold cavity.
Molding unit has two halves namely upper half mold and lower half mold.
Heating arrangement is integrated with molding unit.
Vents are provided to release the gases in the mold cavity during clamping.
End of process the molding unit is open and eject the product.
4. Components of Resin Transfer Molding
Resin and catalyst container
Pumping unit
Mixing chamber
Molding unit like lower halves and upper halves.
Resin injector
Controlling Parameters of Resin Transfer Molding
Resin viscosity
Injection time
Temperature in the mold
Injection pressure
Application of Resin Transfer Molding
Complex structure can be produced.
Automotive body parts, big containers, bathtubs, helmet etc.
Vehicle panels
Boat hulls.
Wind turbine blades.
Aerospace parts.
5. Advantage of Resin Transfer Molding
Good surface finish on both surface of the product.
Fast cycle time can be achieved through temperature control device.
Higher production rate is associated with process automation
The process does not require high injection pressure.
Wide range of reinforcement.
Process can be manual control, semi-automatic or highly automated.
Ability to incorporate insert and other attachment into molding.
Parts are easily painted.
Composite part thickness is uniform which is determined by the mold cavity.
Low capital investment.
Disadvantage of Resin Transfer Molding
Limited to smaller components.
Tolling cost expansive.
There is limitation on reinforcing materials due to the flow and resin saturation of fibers.
Mold maintenance is high than compression tools.
It is produce higher volume waste because of a large pad with sprues.